Photographic camera having automatic exposure setting means



Oct. 1, 1963 w. T. RENTSCHLER PHOTOGRAPHIC CAMERA HAVING AUTOMATIC EXPOSURE SETTING MEANS Filed Oct. 7, 1960 4 Sheets-Shet 1 INV EN TOR. IV a Zdemar T Fenzsc/icfl Oct. 1, 1963 wt RENTSCHLER 3,1 5, 7

PHOTOGRAPHIC CAMERA HAVING AUTOMATIC EXPOSURE SETTING MEANS Filed Oct. 7, 1960 4 Sheets-Sheet 2 Oct. 1, 1963 w. "r. RENTSCHLER 3,105,427

PHOTOGRAPHIC CAMERA HAVING AUTOMATIC EXPOSURE SETTING MEANS Filed Oct. 7. 1960 4 Sheets-Sheet 3 u v I INVENTOR.

40 By Waldemar Z JPe/zzacfiler' F1 cur 8n, G4 1 kffqvi q #3 ATTORNEYS Oct. 1, 1963 w. T. RENTSCHLER 3,105,427

PHOTOGRAPHIC CAMERA HAVING AUTOMATIC EXPOSURE SETTING MEANS Filed Oct. 7. 1960 4 Sheets-Sheet 4 INVENTOR. -Wd/dem0/ T/PeHZ C/IZW mmh Z/cf yin, 16, E5 lm ATTOKA/Ex "T United States Patent 3,105,427 PHOTOGRAPH-EEC CAMERA HAVING AUTOMATIC EXPOSURE SETTING MEANS Waldemar T. Rentschler, Calnrbaeh (Enz), Germany, as-

signor to Alfred Gauthier, G.rn.b.H., Calmhach (Enz), Germany, a corporation of Germany Filed Oct. 7, 1964 Ser. No. 6152M Ciaims priority, application Germany Oct. 8, 1959 9 Qlairns. (Cl. 9510) This invention relates to photographic cameras of the type provided with automatic exposure setting devices, wherein a movable sensing member, which is activated by operation of the camera or shutter release and is connected to an exposure setting member, is responsive to the position of the movable member of an exposure meter incorporated in the camera, thereby to eifect adjusting movement of the setting member to a position which is suitable for making the exposure.

In cameras of the above type the automatic exposure setting, which is effected as a consequence of actuation of the camera or shutter release, involves setting into motion the sensing member whereby the latter is brought to an adjusted position which corresponds to the prevailing light intensity and to additional exposure factors set by the operator. The sensing member, being connected with the exposure setting member, shifts the latter so as to adjust the diaphragm or shutter speed, or both. The sensing member is returned to its initial or starting position in response to the release of the shutter or camera release member, as by removal of pressure therefrom. During such return operation, the exposure setting member in prior known arrangements was also shifted to a starting or end position. With this prior mode of operation the correct exposure setting exists only for the time during which the camera release is held in its depressed position. This produces the result that certain types of exposures, especially exposures involving long times as well as exposures utilizing the delayed action device, can be carried out only if the operator is extremely careful, and in fact in some circumstances such special exposures cannot be carried out at all.

In order to eliminate these disadvantages, there have been proposed in the past locking or detent devices which hold the camera or shutter release in its depressed position until the advance of the film for the next picture has been completed. However, such devices have the limitation that the reading of the light conditions as given by the exposure meter is not again available to the operator directly after the exposure. Instead, the operator if desiring to utilize the exposure meter must reset the parts by the act of advancing the film to the next picture, this causing a return of the camera release and of the sensing member to their starting positions. Moreover, there is a further disadvantage in that the movable member of the measuring mechanism of the exposure meter is being held in a fixed or locked position after the exposure, until the film is again advanced. Such locked position is not desirable if the camera should be subjected to shock, vibration or the like, since the said movable member is better able to Withstand these conditions if it is allowed to move or shift. Depending on when the film is advanced, the locking of the movable member may be retained in locked position for considerable periods of time.

The above disadvantages and drawbacks are obviated by the present invention, and one object of the invention is to provide a novel and improved photographic camera of the kind having automatic exposure setting means as above identified, wherein exposures characterized by long exposure times or by the use of a delayed action device may be efiected in a simple, economical and dependable manner.

This is accomplished, in accordance with the invention, by the provision of a novel combination in the camera wherein a locking or holding device is arranged for the purpose of retaining the exposure setting member in its adjusted position as initially determined by the shifted position of the movable member of the exposure meter, said locking device comprising a movable detent member which is shifted into locking or holding position in response to actuation of the camera or shutter release and after the exposure setting member has been adjusted, such detent member being released and rendered inoperative by a part of the shutter drive mechanism after the operation of the shutter has been completed.

There is thus obtained the advantage, in photographic cameras of the specified type, that exposures of any kind, especially exposures having long exposure times or those utilizing the delayed action device, may be carried out without requiring that the operator pay the slightest attention to the handling or manipulation of the shutter or camera release, this being effected in an economical manner while at the same time there is afforded the greatest possible protection to the movable member of the exposure meter, and to the associated mechanism, from shock, vibration etc. These advantages result from the provision of the looking or detent device which retains the exposure setting member in the adjusted position determined by the movable member of the measuring mechanism of the exposure meter. Such retention is maintained completely independently of subsequent movement of the camera or shutter release after the same has been initially actuated or depressed, and is eifective only until such time as the operation of the camera shutter has been completed. This mode of operation produces a maximum degree of reliability in obtaining automatic exposure settings regardless of the type of exposure and without involving appreciable additional cost. In addition, by arranging for the disengagement of the movable member of the measuring mechanism and the sensing member as a consequence of return movement of the camera or shutter release, the present organization insures freedom of movement of the said movable member of the measuring mechanism immediately after the camera or shutter release has returned to its initial or starting position. Accordingly, such movable member is in the best possible condition to absorb shocks, vibration and the like without being damaged, and is also again immediately available to enable the operator to obtain an indication or reading of the prevailing-light conditions.

The actuation of the said locking device in response to operation of the camera or shutter release may be effected in various ways. For example, it may be effected by causing a release of the detent member of the locking device for spring-urged movement into its locking position in response to movement of a member of the shutter drive mechanism, as for example the main drive member of the shutter.

This mode of operation is especially advantageous in cameras wherein a part of the shutter drive mechanism, as for example a shutter blade driving ring, is used to release the delayed action device in a well known manner. The releasing of such delayed action device as well as the releasing of the locking member or spring-urged movement into its locking position may occur during that part of the movement of the shutter drive mechanism which occurs prior to opening of the shutter blades.

That is, the shutter will still be closed because of the mutually overlapping portions of the blades,

An especially economical and simple structure can be effected, in this connection, by utilizing one and the same the locking memberthereof in response to movement of the said camera or shutter release, and a pawl or detent may be provided for'actuation by a part of the shutter driving mechanism after the operation of the shutter has been completed, to release the detent member for return to its non-locking position.

This latter arrangement is especially adaptable for use in cameras and shutters of all types and kinds, since .the locking mechanism is made operative not by the shutter drive mechanism but insteadin response to operation of the releasing means that is utilized for such mechanism.

An easy and time-saving assemblage of aphotographic camera andintra-lens shutter incorporating the inven tion may further be effected by arranging the locking or v detent member and the control part ofthe shutter drive mechanism or other release device within or on the housing of the intra-lens shutter.

' This makes it possible to completely mount and finally adjust, during the assembly of the shutter, the said locking mechanism for the exposure setting member, as well as the control and operating members therefor. Thus, upon assembly of the camera it is merely necessary to establish a connection between the sensing member provided on one side offhe camera and the exposure setting member which is arranged in or on the shutter.

The invention is illustrated by way of several embodi- 'ments, in the accompanying drawings, in which:

FIG. 1 is a diagrammatic elevational view taken from the rear of an intra-lens shutter affixed to a camera and running down. The locking mechanism is in its operative position.

FIG. 4 is a view similar to that of FIG. 3, showing the shutter after it has run down, occupying the uncocked position.

FIG. 5 is a front elevational view of the photographic intra-lens shutter shown in the preceding figures. The

cover plate of the shutter is removed, and portions of the releasing and driving mechanism of the shutter are shown.

FIG. 6 is a fragmentary view partly in section and partly in elevation, of the front wall of the camera houshaving a locking mechanism for the exposure setting member as provided by the invention, said mechanism belg. posure setting member, which differs from that shown in FIGS. 1 to 7, said locking device being provided on the rear of the shutter and being connected to an automatic setting mechanism. The shutter is in its cocked position.

FIG. 9 is a view like that of FIG. 8, but showing the camera release in depressed position, just prior to release of the shutter.

FIG. 10 is a fragmentary elevational view of the structures of FIGS. 8 and 9, showing the released shutter in a particular phase of its running-down movement. The locking device is in its operative condition.

FIG. 11 is an enlarged fragmentary elevational view of the locking device in the position illustrated in FIG. 10.

FIG. 12 is a view similar to that of FIG. 10, showing the shutter in its run-down or non-cocked position. 7 FIG. 13 is an enlarged view of the locking device as it is positioned in FIG. 12.

FIG. 14 is a diagrammatic front elevational view of an intra-lens shutter mounted on a camera and having the cover plate removed. Arranged within the shutter is a locking device for an exposure setting member as provided in accordance with the invention, which cooperates: with the automatic setting mechanism. The shutter is shown in the cocked position.

FIG. 15 is a fragmentary view of the structure of FIG. 14, showing the camera release in depressed position,the various parts having the positions occupied immediately prior to release of the shutter.

FIG. 16 is a view similar to that of FIG. 15, but showing the released shutter in a specific phase of its running down movement. The locking device is in operative condition.

FIG. 17 is a schematic circuit diagram and diagrammatic representation of a measuring device and movable member thereof, of a type suitable for use in the camera of the present invention.

As shown, the housing or case of the photographic camera is indicated by the numeral 1. Provided on the front of the case 1 is a circular opening 1a (FIG. 6), into which an intra-lens shutter assemblage 2 can be inserted in a well known manner by means of a tubular threaded nozzle 3a projecting from. the rear of the shutter housing 3. An exposure time or speedsetting ring 4 is provided on the intra-lens shutter assemblage 2, said ring having a knurled finger grip 4a and being held in position in a 'well known manner by means of a front plate 5 which is arranged on the front of the shutter housing 3. Rotary adjustment of the speed setting ring 4 enables the exing or case and of an intra-lens' shutter assemblage about to be attached thereto. This figure further shows portions of a cocking device for the driving mechanism of the shutter illustrated in FIG. 5, including a cocking shaft which is mounted on the camera and is cooperable with the locking mechanism for the exposure setting member. 7

FIG. 7 is an enlarged fragmentary perspective view showing the construction of the locking mechanism for the exposure setting member, as well as the manner in.

which the movable detent member of the locking mechanism cooperates with the cocking shaft shown in FIG. 6.

FIG. 8 is a diagrammatic elevational view taken from the rear of an intra-lens shutter mounted on a camera,

this view illustrating a type of locking device for the exposure time of the camera to be adjusted, as will be understood. A camera or shutter release member 7 (FIGS. 1 and 2) in the form of a plunger is longitudinally movable on the camera case 1, being shiftable in a direction at right angles to the axis of the shutter assemblage 2. The plunger 7 is biased upward as seen in FIGS. 1 and 2 by a helical compression spring 6, and downward movement of the plunger against the action of the spring 6 effects a release of the shutter. In addition, there is further provided in the camera case l a sensing member 8 which cooperates with an exposure setting member of the shutter for the purpose of automatically adjusting the shutter. The sensing member, in a well known manner to be described below, senses the position of a movable member of the measuring mechanism of an exposure meter which is built into the camera, this function taking place in response to actuation of the camera release 7. The exposure setting member which cooperates with the sensing member 8 is, in the illustrated embodiments of the invention, a diaphragm setting ring 9 which is provided on the rear of the shutter housing 3. The exposure setting member may, however, be for example the speed setting ring 4 of the shutter assemblage, or it may comprise an exposure value setting member, as will be readily'understood.

in the form of a slide which is guided on a fixed member of the measuring mechanism of the exposure meter. The sensing member 8 is shown as movable vertically, as seen in FIGS. 1 and 2, in a direction parallel to the direction of movement of the release plunger 7. A helical compression spring acts on the sensing member 8 and tends v to keep it in engagement with a collar or flange 7a of the camera release 7. The spring 10 is, however, weaker than the compression spring 6 acting on the plunger 7 so that the sensing member 8 occupies the position shown in FIGS. 1, 8 and 14 when the camera release is in its raised on non-influenced position. For the purpose of cooperating with the movable member of the measuring mechanism, the sensing member 8 has a stepped abutment edge he by means of which the member engages (after actuation or depressing movement of the plunger 7) under the action of its spring 10 a needle or pointer 12 connected to the movable member of the measuring mechanism. The needle 12 is shiftable over a fixed surface or base member 11. Prior to the sensing operation, the needle 12 is clamped in its adjusted position in a well known manner, by means of a clamping device comprising a lever 14 which is pivotally movable about an axis 13 and which engages a pin 16 of the sensing member under the action of a wire spring 15 at the time that the sensing member 8 is in its raised or starting position. In this position of the lever 14 the needle 12 is freely movable over the base 11. However, upon actuation of the camera release 7, the pin 16 becomes disengaged from the lever 14 whereupon the latter under the action of the spring 15 clamps the needle 12 in its adjusted position. As seen in FIGS. 1 and 2 the undersurface of the lever 14 is grooved or serrated so as to have a locking action on the needle 12. The clamping of the needle 12 is effected prior to adjustment of the diaphragm by the sensing member 8, and for this purpose the sensing member has an initial movement or idle path indicated by the letter L in FIG. 14.

For the purpose of cooperating with the sensing member, the diaphragm setting ring 9 has an arm 9a which is located in the path of movement of a pin 17 aifixed to the sensing member 3. The diaphragm of the shutter assemblage, in the illustrated embodiments of the invention, comprises a plurality of segments or lamellas 18, which are pivotally positioned about fixed bearing pins 19 and have pin-and-slot connections 1&1, 20 with the diaphragm setting ring 9. A light spring 21 tends to keep the ring 9 in the position shown in FIGS. 1, 4, 8 and 12, wherein the diaphragm is fully opened.

A sensing member having a stepped abutment edge which cooperates with a pivotally movable control member of an electric measuring device is also disclosed and described in my copending application Serial No. 22,000, filed April 13, 1960 and entitled, Photographic Camera With Automatic Exposure Setting, now Patent Number In accordance with the invention, the above-described exposure setting mechanism is to be used for exposures of every kind, especially for those having long exposure times or those utilizing a delayed action device, and in accomplishing this the invention provides a novel combination with the above structure of a locking device which retains the diaphragm setting ring 9 in its adjusted position as determined by the position of the movable member or needle 12 of the measuring mechanism of the exposure meter. Further, the locking device has a movable looking or detent member which is shiftable into a locking position in response to actuation of the camera or shutter release '7 and after the diaphragm has been adjusted or regulated automatically, and which is released or shifted from its locking position by a part of the shutter drive mechanism after the shutter has completed its operation.

In the embodiment of the invention shown in FIGS.

1-7 the movable locking or detent member is constructed in the form of a lever 22 having a shape as shown in FIG. 7. The lever 22 is carried by a pivot pin 23 mounted on the camera, and has an arresting lug 22a which is engage-able under the action of a spring 24 with a toothed or ratchet portion 9b provided on the circumference of the diaphragm setting ring 9. The pitch of the gear or toothed portion 912 corresponds to the graduations of the stepped edge 8a provided on the sensing member 8. The lever 22 has a recess 22b in which a pin 25 is movable. The pin 25 is affixed to a shaft 26' located within the camera, such shaft being connected to the film transport device in -a well known manner not shown for the sake of clarity of illustration. The free end of the shaft 26 is constructed as a coupling, to receive the cocking shaft 27 for the shutter, which is carried by the shutter assemblage 2 (see FIG. 6). A well known main driving disk .29 of the shutter driving mechanism is affixed to the shaft 27, being powered by a coil spring 28 as shown in FIG. 5.

In order to actuate a driving ring 36 for the shutter blades 31 there is provided :a driving iink 33 which is pivotally mounted in a well known manner on a pin 32 carried by the driving disk 29. By means of a notched portion 33a the link 33 is drivingly connected to a pin 35 afiixed to the shutter blade driving ring 30, and a spring 34 tends to maintain the link 33 engaged with the pin 35, as will be understood. With this arrangement, as is well understood in the art, the driving ring has impar-ted to it a reciprocating movement in response to clockwise running-down movement of the driving disk 29 (indicated by the arrow in FIG. 5) such running-down movement of the disk 29 and opposite movements of the ring .30 cause the shutter blades 31 to be first opened and thereafter to be again closed. The shutter blades 31 (only one of which is shown for the sake of clarity of illustration) are positioned about fixed pins 36 and have pin-and-slot connections 31a and 37 with the driving ring 30.

An arresting lever 39 is pivotally mounted about a pin '40 within the shutter assemblage 2 and serves in all of the illustrated embodiments of the invention to retain the shutter driving disk 29 in its cocked position, as illustrated in FIG. 5. One arm 3% of the lever 39 has a lug 3% which engages a projection or shoulder 29a of the disk 29 whereas the other 13TH]. 390 of the lever 39 engages under the action of the spring 41 a pin 42 of a releasing lever 43. The latter is also pivo-tally positioned about an axis 44 in the shutter and is biased in a clockwise direction by a spring '45. To establish a connection with the shutter release 7, the lever 43 has a lug 4311 'which projects from the rear Wall of the shutter housing 3, extending through a clearance slot 3b, and is located in the path of movement of an arm 7b of the shutter release 7. The arrangement of the arms 7b and 43a is such that release of the cooked driving disk 29 by the arresting lever 39 takes place only when the sensing operation, involving an automatic setting of the diaphragm ring 9 by the sensing member 8 as the latter is halted in an adjusted position by the light-responsive needle 12 of the measuring mechanism, is completed.

As is apparent from FIGS. 1, 2 and 7 the 'pin 25 which is afiixed to the cooking shaft 26 engages, when the driving disk 29 is cocked, a projection 22c bordering the recess 22b of the lever 22 (see FIG. 7) whereby the arresting lug 22a of the lever 22 is maintained, against the action of the spring 24, out of engagement with the toothed portion 9b of the diaphragm setting ring 9.

After the cocked driving disk 29 has been released by the arresting lever 32 the disk executes under the action of its driving spring 28 a clockwise rotary motion (see FIG. 5) during which the shutter blades 31 are first opened and then again closed (after an open position has been reached). FIG. 7, the running-down movement of the shaft 26 is counterclockwise, since the shaft is viewed its operation.

from the opposite end as compared with the showing in FIG. where the running-down movement of the shaft 26 is clockwise. A t -the start of this motion of the'driving disk 29 the pin 25 becomes disengaged from the projection 22c of the detent lever 22. Such disengagement frees the arresting or detent lever 22 whereby the lug 22a there- .of under the action of the spring 24 becomes engaged with the toothed portion 912 of the diaphragm setting ring 9 and retains the ring in an adjusted position against the action of the spring 21 acting on said ring (see FIGS. 2 land 3). In FIG. 3 the diaphragm adjusting ring 9 is shown as being halted in an adjusted position by the arresting or detent lever 22; The diaphragm adjusting ring '9 is retained in this adjusted position by the lever '22 even after the depressed camera release plunger 7 shown in FIG. 1, as will now be understood. The retention o-f'the diaphragm setting ring 9 ceases, as stated has been allowed to return to its'raised, starting position above, after the shutter has completed its operation and is again fully closed. The release of the ring 9 is effected by the pin 25 which, near the end of the running-down movement of the shaft :26 and disk 29 engages an opposite portion 22x of the arresting lever 22, moving the lever against the action of the spring 24 out of engagement with the toothed portion 917, see' FIG. 4. This enables the diaphragm setting ring 9 to return to its starting position as shown in FIGS. 1 and 4, under the action described shutter or camera release device comprising the plunger '7, and is retained in this position by meansof a detent mechanism which is releasable by a part of the shutter drive mechanism after the shutterhas completed The detent member in these figures is a two-armed lever 46 which is pivotally carried by a pin 47 mounted on the front wall of the camera, and is urged in a clockwise direction by a spring 43. The lever 46 has an arm 46a located in the path of movement of the arm 43a of the release lever 43. This causes the detent lever as to be shifted, when the camera-release '7 is actuated, against spring action into the locking position shown in FIGS. 10 and 11. In this position, a pin 49 affixed to the arm 46a engages a toothed portion 90 provided on the diaphragm setting ring 9, which corresponds to the toothed portion 9b shown in FIGS. 1-4 and 7.

As mentioned above, a detent mechanism cooperates with the lever 46 in order to retain the latter in its operative position. This detent mechanism comprises a twoarmed lever5tl which is pivotally mounted about a pin 511. provided on the front side of the camera and is urged in a counterclockwise direction by a spring 52. One arm 5% of the lever 5d has a projection 55th which, upon the arresting or detent lever 46 being in its locking position, engages one side of a pin 53 provided on the lever 46 under the action of the spring 52 and retains the lever 46 in locking position against the action of the spring 48 (FIG. 10). The other arm 5th: of the lever 5% on the other hand is located in the path of movement of a pin 54 affixed to the cocking shaft 26 and corresponding to the pin 25 in the embodiment of FIGS. l-7. Towards the end of the running-down movement of the cocking shaft 26 and the driving disk 29, and after the shutter has completed its operation, the pin 54 engages the arm Site of the lever 50, pivoting the latter against the action .of'the spring 52 (FIG. 12). y

This causes the arresting lug or projection Etib to become disengaged from the pin 53 so that the lever 46 under the action of its spring 48 returns to the starting clockwise running-downmovement.

position shown in FIGS. 8, 9, 12 and 13. During this movement the arresting pin 49 of the lever 46 becomes disengaged from the toothed portion 9b of the diaphragm setting ring 9. This produces the result that the diaphragm setting ring is allowed to return to its starting position under the action of the spring 21.

FIGS. 14-16 show still another embodiment of the invention wherein the parts are incorporated in an intralens shutter housing. This embodiment comprises a photographic camera of the type having an intra-lens shutter, and is especially characterized by a movable looking or detent member and associated parts of the shutter drive mechanism and of the shutter release device which cooperate with the detent member, which are all located in the intra-lens shutter housing, shown herein as the housing 3 of the intra-lens shutter assemblage 2a. The movable detent member in this embodiment is constructed as a two-armed lever 54d which is positioned about a pin 55 located in the shutter housing 3: and is urged in a clockwise direction by'a spring 56. One anm 546a of the lever 540 has an arresting lug 54th]; which cooperates with-a toothed portion 9d provided on the diaphragm setting ring 9. When the camera release is not depressed, the arm Sada engages under the action of the spring 56 a pin 57 of the release lever 43, and the arresting lug 5449b is disengaged from. the toothed portion 9d. The other arm 54% of the lever 544i cooperates with the main driving disk 29 of the shutter, and for this purpose it is located in the path of movement of a pin 58 afliXe-d to the driving disk 29.

Upon the camera release 7 being actuated against the action of the spring 6, the arnrib thereof engages, after the position of the measuring mechanism needle 12 has been sensed and the diaphragm has been set, the lug 43a of the release lever 43, pivoting the same in a counterclockwise direction (FIGS. 14, 15 and 16). Due to this movement, the arresting lever 39 which is retaining the driving disk 29 in the cocked position is pivotally shifted clockwise against the action of the spring 41 so that the projection 35% becomes disengaged from the projection 29a of the driving disk. The disk is thus released for At the same time the pin-57 of the release lever 43 becomes disengaged from theaarresting lever 540, whereby the latter pivots in a clockwise direction under the action of its spring 56, causing the lug S ttlbthereof to come into engagement with the toothed portion 9d of the diaphragm setting ring 9. After the shutter has completed its movement, the locking device 9d, 5%!) is released, this occurring toward the end of the clockwise running-down movement of the driving disk 29 when the pin 58 comes into engagement with the arm 54% of the lever 546*, returning the latter against the action of its spring 56 to the position shown by the broken lines in FIG. 16. During this return or restoring movement of the lever 5 th, the lug 54th) becomes disengaged from the toothed portion 90', so that the diaphragm setting ring 9 is able to return to its starting position under the action of the spring 21.

' FIG. 17 shows schematically an electrical measuring device and circuit therefor which may be used in the camera of the invention. The exposure meter includes a photo-electric cell P, connected in circuit with a calibrating resistor R and a measuring device or instrument movement M, the latter having a movable member including the pointer or needle 12. When light strikes the photo-electric cell P it energizes the instrument move- 'ment M and deflects the needle 12, as is well understood in the art. As already mentioned, the needle 12 is movable over a fixed. table or base surface member 11, and may be clamped thereto in any adjusted position by the clamping lever 14.

I claim:

1. A photographic camera of the type having an exposure meter provided with a measuring mechanism and movable member thereof, and having a sensing member and exposure setting member connected thereto and actuated thereby, said sensing member and exposure setting member moving to an adjusted position as determined by the movable member in response to actuation of the camera or shutter release, and having a releasable locking device including a movable detent member, for locking the exposure setting member against accidental movement in any of its variously adjusted positions, characterized by means for rendering operative said locking device in response to actuation of the camera or shutter release after adjustment of the setting member has taken place, and further characterized by means for rendering inoperative said locking device in response to movement of a member of the shutter drive mechanism after the shutter has been closed thereby, and in which the detent member is biased toward an operative position, and in which the means rendering operative the locking device comprises the main driving member of the shutter drive, acting on said detent member.

2. A camera as in claim 1, in which the means rendering inoperative the locking device includes the said main driving member of the shutter drive.

3. A camera as in claim 1, in which the means rendering operative the locking device comprises a movable member of the camera or shutter release and a releasable detent mechanism for holding the detent member in operative position, said means for rendering inoperative the locking device comprising a member of the shutter drive, acting on said detent mechanism. 1

4.. A camera as in claim 2, in which the camera includes an intra-lens shutter assemblage having a housing, and in which the said detent member and'main driving member are carried by and in the said housing.

5. In a camera construction having an exposure meter including a measuring mechanism and a movable member, a sensing member for sensing the position of said movable member, and an exposure setting means operatively connected to said sensing member and actuated thereby for moving the same to an adjusted position as determined by the movable member in response to the actuation of a camera release, the improvement comprising a releasable locking means adapted to operate directly on said exposure setting member for locking the same in its automatically adjusted position, said locking means including a movable detent lever having an arresting lug, and said exposure setting member having ratchet section connected thereto, said arresting lug being adapted to engage said ratchet sector in response to the actuation of the camera release after the exposure setting member has reached its adjusted position, and a shutter drive means operatively associated with said detent for permitting movement of said. detent between operative position for maintaining said exposure setting member in adjusted position, and inoperative position to,

release said exposure setting member only after the shutter drive means has completed its operation.

6. In a camera construction having an exposure meter including a measuring mechanism and a movable memher, a sensing member :for sensing the position of said movable member, and an exposure setting member operatively connected to said sensing member and actuated thereby for moving the same to an adjusted position as determined by the movable member in response to the actuation of a camera release; the improvement comprising a releasable locking means operating directly on said exposure setting member for locking the same in its automatically adjusted position, said locking means including a movable detent lever having an arresting lug, and said exposure setting member having ratchet section connected thereto, said arresting lug being adapted to engage said ratchet sector in response to the actuation of the camera release after the exposure setting member has reached its adjusted position, means for normally biasing said detent toward operative position, and shutter device means operatively associated with said detent lever for permitting movement of detent between operative position for positively maintaining said exposure setting member in adjusted position and inoperative position to release said exposure setting member only after said shutter drive means has completed its operation.

7. The invention as defined in claim 6 wherein said movable detent and shutter device means have cooperating complementary means for effecting the operation of said detent lever.

8. The invention as defined in claim 7 wherein said shutter device means include a drive shaft, a pin mounted on said drive shaft, and said detent lever having a recess for receiving said pin, and said pin being adapted to engage the opposed end portions of said recess to limit the movement of said detent lever between operative and inoperative positions.

9. A camera construction comprising an exposure meter having a measuring mechanism including a movable member, and an exposure setting member operatively connected to said sensing member and actuated thereby for moving the same to an adjusted position as determined by the movable member in response to the actuation of a camera release, a shutter drive means including a driving member, a drive shaft operatively connected to said drive member, an arresting lever operatively associated with said drive member for retaining said drive member in its cocked position, a releasing lever operatively associated with the arresting lever and a camera release whereby actuation of said camera release effects the release of said shutter driving member, a releasable locking means operating directly on said exposure setting member for locking the same in its automatically adjusted position, said locking means including a movable detent lever having an arresting lug, and said exposure setting member having ratchet section on the peripheral portion thereof, said arresting lug being adapted to engage said ratchet sector in response to the actuation of the camera release after the exposure set-ting member has reached its predetermined adjusted position, and means operatively connected to said shutter drive means operatively associated with said detent lever for permitting movement of said detent lever between operative position for maintaining said exposure setting member in adjusted position and inoperative position to release said exposure setting member only after the shutter driving member has completed its operation.

References Cited in the file of this patent 

1. A PHOTOGRAPHIC CAMERA OF THE TYPE HAVING AN EXPOSURE METER PROVIDED WITH A MEASURING MECHANISM AND MOVABLE MEMBER THEREOF, AND HAVING A SENSING MEMBER AND EXPOSURE SETTING MEMBER CONNECTED THERETO AND ACTUATED THEREBY, SAID SENSING MEMBER AND EXPOSURE SETTING MEMBER MOVING TO AN ADJUSTED POSITION AS DETERMINED BY THE MOVABLE MEMBER IN RESPONSE TO ACTUATION OF THE CAMERA OF SHUTTER RELEASE, AND HAVING A RELEASABLE LOCKING DEVICE INCLUDING A MOVABLE DETENT MEMBER, FOR LOCKING THE EXPOSURE SETTING MEMBER AGAINST ACCIDENTAL MOVEMENT IN ANY OF ITS VARIOUSLY ADJUSTED POSITIONS, CHARACTERIZED BY MEANS FOR RENDERING OPERATIVE SAID LOCKING DEVICE IN RESPONSE TO ACTUATION OF THE CAMERA OR SHUTTER RELEASE AFTER ADJUSTMENT OF THE SETTING MEMBER HAS TAKEN PLACE, AND FURTHER CHARACTERIZED BY MEANS FOR RENDERING INOPERATIVE SAID LOCKING DEVICE IN RESPONSE TO MOVEMENT OF A MEMBER OF THE SHUTTER DRIVE MECHANISM AFTER THE SHUTTER HAS BEEN CLOSED THEREBY, AND IN WHICH THE DETENT MEMBER IS BIASED TOWARD AN OPERATIVE POSITION, AND IN WHICH THE MEANS RENDERING OPERATIVE THE LOCKING DEVICE COMPRISES THE MAIN DRIVING MEMBER OF THE SHUTTER DRIVE, ACTING ON SAID DETENT MEMBER. 